L-1.8: Fork System call with Example | Fork() system call questions

Gate Smashers
6 Feb 201910:01

Summary

TLDRIn this video, the presenter delves into the fork system call in operating systems, explaining how it creates a child process from a parent process. They discuss the process's behavior, noting that fork returns 0 to the child and the child's PID to the parent. The video also covers the implications of multiple fork calls, illustrating how the number of 'Hello' prints and child processes can be calculated using the formula 2^n and 2^n - 1, respectively. Aimed at viewers preparing for competitive exams, the presenter emphasizes the importance of understanding fork for success in computer science quizzes.

Takeaways

  • 🔑 The fork system call is used to create a child process from a parent process in C programming.
  • 👥 A child process created by fork is an exact clone of the parent, but with its own unique process ID.
  • 📈 The fork system call returns 0 to the child process, a positive number (often the child's PID) to the parent, and -1 in case of an error.
  • 🤖 When fork is called, both the parent and child processes continue to execute the subsequent instructions in parallel.
  • 🌐 The number of times 'Hello' will be printed when fork is used can be calculated as 2^n, where n is the number of fork calls.
  • 💡 The total number of child processes created by multiple fork calls is given by the formula 2^n - 1.
  • 🧩 Forking creates a full copy of the parent process, whereas threading involves sharing most resources but having separate threads of execution.
  • 📚 Understanding fork and its behavior is crucial for computer science competitive exams like GATE and UGC NET.
  • 🔍 The script emphasizes the importance of remembering the values returned by fork and the formulas for calculating the number of prints and child processes.
  • 🎯 The video aims to clarify common misconceptions and provide a clear understanding of how fork operates in operating systems.

Q & A

  • What is the primary purpose of the fork system call in programming?

    -The primary purpose of the fork system call is to create a child process that is an exact clone of the parent process.

  • How does the fork system call differ from using threads?

    -Fork creates a completely new process with its own process ID, memory space, and resources, while threads share most of the resources but have their own stack and can perform tasks concurrently.

  • What is the significance of the return value of the fork system call?

    -The return value of the fork system call is significant as it returns 0 to the child process, the child's process ID to the parent process, and -1 upon failure.

  • What happens when the fork system call is executed within a program?

    -When the fork system call is executed, it creates a child process, and both the parent and child processes continue to execute concurrently from the point of the fork call.

  • How can you determine if a process is a child or parent after a fork call?

    -You can determine if a process is a child or parent by checking the return value of the fork call: 0 indicates the child process, and a positive value indicates the parent process.

  • What is the formula to calculate the number of times 'Hello' would be printed if the fork system call is used in a loop?

    -The number of times 'Hello' would be printed is calculated using the formula 2^n, where n is the number of times the fork system call is executed.

  • How many child processes are created when the fork system call is executed n times?

    -The total number of child processes created when the fork system call is executed n times is given by the formula 2^n - 1.

  • Why is it important to handle the return value of the fork system call in a program?

    -Handling the return value of the fork system call is important to differentiate the parent and child processes and to perform different actions based on whether the process is a parent or child.

  • What is the role of the operating system and kernel in the fork system call?

    -The operating system and kernel play a crucial role in the fork system call by managing the creation of the child process, allocating resources, and ensuring the child is an exact clone of the parent at the time of the fork.

  • Can the fork system call fail, and what could be the reason for failure?

    -Yes, the fork system call can fail, typically due to reasons such as the system being busy, reaching the maximum limit of processes, or insufficient memory to create a new process.

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Fork System CallProcess CreationOperating SystemsChild ProcessParent ProcessProcess IDProgramming ConceptsConcurrencyC LanguageSystem Programming
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